RU1835025C - Device for placing repair material in repair zone of repaired pipe-line inside wall - Google Patents

Abstract

Scope of application; for pipeline repair. SUMMARY OF THE INVENTION: a sheet-like material is laid inside a pipe using a mounting material, the repair material 9 7 7 I / t being pulled into the pipe by a rod element 4 that pulls the pumped element, while the pumped element 1 is axially aligned along the rod element 4 and along at least partially around the rod element 4 to limit the annular or partially annular enclosed space 9, 10 created along the rod element 4, for pumping or pumping air are provided means 8, 11, in those cases where, while in a pipeline, in addition the inflatable element having an outer surface of the flexible portion, fixed only at one end of the rod member; the pumped-up element 1 is activated by pumping to press the material for repair to the wall of the pipeline being repaired, after which the air is pumped out of the apparatus and it is pulled out of the pipeline in the direction corresponding to which part of the outer wall of the pumped element 1 is gradually turned out and stripped from the repair material. 6 C.p. f-ls, 2 ill. 7th race in 1/1 s and (L C 00 eat o hO eat SA FigL

Description

The invention relates to a device for restoring damaged water pipes, pipelines and individual pipes by applying an reinforcing casing to their internal walls using an air-pumped device.

The purpose of the invention is to provide an improved device and method of using this device for repairing pipelines and similar devices (including sewer pipes) by placing material for repair in the repair zone in the pipeline so that it is possible to remove the device from the pipeline without the risk of moving the repair material placed on the repaired place, and, thus, a significant increase in the reliability of the repair process. Another preferred objective of the present invention is to provide an improved repair device of the aforementioned type, which in the process of its application allows to continue supplying the product through the pipeline being repaired, thereby making it possible to eliminate the need for such expensive measures as a bypass device or temporary (for the period of repair) the termination of the product through the pipeline.

The present invention provides a device for mounting material used for repair on the inner surface of a pipeline being repaired at the place of repair, said device including a rod element 4, a radially extensible device 1 mounted on said rod element and arranged axially along said rod element at least part of its length and surrounding at least part of said core element, material used for repair and installed in such a way that the device can be moved inside the pipeline to be repaired and installed on the repaired section, while the radially elongating device, when it expands, presses the repair material to the repaired section, this device, characterized in that the external surface of the part 7 of the radially extensible device 1 is connected to the rod element 4 at only one coaxial end of the outer surface of the part 7 of the radially extensible device 1, the outer surface of the part 7 being placed along the specified rod element 4 in the first axial direction from the axial end so that when the device is removed from the pipeline in the first axial direction

free separation of the outer surface of part 7 from the repair material is ensured without disturbing its position at the repair site. Thus, the reliability of the repair process is significantly

0 is increasing.

The present invention provides a method for installing repair material on a repaired spot on the inner wall of a repaired pipeline 5, a method comprising installing a repair device in a specific position at a repair location of a specified pipeline, a device including a core member 4, a radially elongating device 1 installed

asterzhennom element 4 and positioning outside the rod element and along it in

axial direction at least at

parts of the core element and coaxially

5 with respect to it, repair material introduced by the device into the pipeline to be repaired and placed in a certain way at the repair site with the possibility of radial expansion

0 radially extensible fixture, ensuring the pressing of the repair material to the repaired place and the subsequent removal of the device from the pipeline, a method characterized in that

5 that the outer surface of part 7 of the radially extending device 1 is connected to the rod element 4 at only one adjacent axial end of the part 7 of the radially extending device 1 with the outer surface of the part 7 located along the rod element 4 in the first axial direction from one axial the end so that when the device is removed from the pipeline in the first axial direction, free separation of the external surface of part 7 from the repair material is ensured without violating the position of the repair material on the repaired

0 plot.

In accordance with the aforementioned preferred aspect, the present invention further provides a device for mounting material used for repair on the inner wall of a pipeline being repaired at the place of repair, a device including a rod element 4, a radially elongating device 1 mounted on the rod element outside it and located axially along at least with respect to a part of the rod element and coaxially with respect to at least a part of the rod gun element, material used for repair. the pipeline to be repaired by means of the device 3 and placed at the repair site in such a way that the radially elongating device 1, expanding, presses the repair material to the repair site, a device characterized in that the core element 4 includes an internal axial clearance providing a flow of fluid between the opposite axial ends of the device. Thus, the need to shut off the fluid supply or to the bypass line in the presence of a repaired pipe section is eliminated.

In a preferred embodiment, the radially extensible device includes an inflated member defining an annular or partial annular enclosed space axially located along said core member. Preferably, the inflated element consists of inner and outer flexible sheets connected to the rod element in adjacent axial positions with an annular or partially annular enclosed space located between the inner and outer flexible sheets. Moreover, in a preferred embodiment of the invention, a flexible sleeve is installed outside around the pumped element, forming a part of the external surface. The pumpable element, preferably in the form of a tube, peels off the repair material when the pump is removed, at least partially by axially removing the forming element along the pipe without damaging the seal between the reinforcing material and the pipe wall.

For greater convenience, the annular space is divided to form a cavity for fluid passage at least partially along the outer surface of the tube. Preferably, the annular enclosed space is separated by annular or partially annular elements, fixed on the one hand to the forming element in a position between the opposite ends of the flexible tube. The middle inlet and outlet boost nozzles can be installed on each side of the annular separation

or partially annular elements. In a preferred embodiment of the invention, the core element has an annular shape, allowing fluid to flow through the pipeline during repair.

In FIG. 1 is a longitudinal sectional view of one side of an inflated shape; in FIG. 2 is a longitudinal cross-sectional view of a portion of a coaxial channel of a mold.

As shown in FIG. 1, the inflated form 1 is formed by partially turning the pipe out of the corresponding elastic material and securing both ends 2 and 3 thereof together with each other on the core element in the form of a coaxial pipe 4, the end 3 being installed at one end of the said coaxial pipe. Between said ends, to said coaxial pipe, an end 5 of the tubular guide sleeve 6 is fastened, which is axially substantially along the entire length of said pumpable shape, and its other end is open. Said guide sleeve may be made of impermeable material or may be wholly or partially made passable. Inlet and outlet means 8, 11 are provided on either side of sleeve 6 to allow for pumping of the pumped medium and its removal from mold 1. Coaxially with the end 3 of said pipe or with the end of said coaxial pipe behind the position of end 3, if the end of said coaxial pipe is elongated, one end of the flexible outer rim 7 is fixed, the other end of which is loose relative towards the other end of the said coaxial channel. It should be clarified that the outer rim 7 can be released from the proposed embodiment, in which case the flexible outer wall 20 of the pipe 1 forms part of the outer surface of the pumped element. In this case, when the outer rim 7 is used, a simple pumpable element can also be used, the axial ends of which are connected to the channel 4 at a distance from its ends. During operation, a tube of reinforcing material impregnated with a thermosetting resin is placed on top of the pumped mold and the entire system is introduced into the cross section of the pipeline or a separate pipe. subject to recovery, especially the end 3 of the named pipe. Correct placement can be verified by using a closed-circuit television system.

The pumping medium, at appropriate temperatures and pressures, is then introduced through channel 8, causing the mold to expand and causing the thermoplastic resin impregnated with the repair material to come into close contact with the surfaces of the inner wall of the pipeline or individual pipe. The flow of pumping medium passes through the annular spaces 9 and 10 between the aforementioned tubular guide sleeve and the opposing internal surfaces of the above-mentioned form for removal through the channel 11, the aforementioned circulation providing an even temperature distribution. The pumping medium circulates at appropriate pressures and temperatures, and preferably even until complete curing of the resin, referred to as the reinforcing resin-impregnated material.

The temperature distribution can be adjusted if necessary with the help of the aforementioned tubular guide sleeve with a size-adjustable stroke and an adjustment providing quick switching of the hot flow. Therefore, the pumping medium may be water, air, or some other suitable gas or liquid.

After complete curing of the thermosetting resin, with which the reinforcing material is impregnated, the circulation of water is suspended and all the water is drained or pumped out of the interior spaces of this form. This mold is then slowly removed from the pipeline or pipe. This action causes the so-called flexible outer rim to be unscrewed and removed from said reinforcing material so that when the mold leaves the repaired Cut, it is more or less completely twisted. Such a peeling action is extremely effective in overcoming all residual adhesion between the aforementioned flexible outer sheath and the resin to which the reinforcing material is impregnated.

As shown in FIG. 2, a coaxial channel 4 of an inflated shape consists of a plurality of tubular elements 12 in a collinear arrangement. Each of the said tubular elements has a profiled annular axially protruding protrusion 16 on the end surface, and an additional cutout 17 at the other end. When the ends of the contacting said tubular elements are connected end-to-end, these protrusions and cut-outs coincide exactly, providing a collinear arrangement of the said tubular elements. Along the length of each of said tubular elements, one or more openings 13 are provided through which a tension cable 14 extends from one end of said coaxial channel to the other. Said tension cable is secured to an end member at one end of said coaxial passage, and a screw or other suitable means for tensioning the cable is provided at the other end. When said cable is tensioned, said tubular elements are mounted 5 rigidly axially, with their adjacent mating annular protrusions and notches coinciding, as a result of which their collinearity is ensured. Along the entire length of the named coaxial passage

0, the outer casing 15 is stretched from a corresponding flexible material / which is fixed and correspondingly sealed at each end on the corresponding element 12. The casing 12 serves to seal

5 named tubular elements together. . It should be clarified that the casing 15 is necessary when a simple pumpable element is used so that the pumping medium does not leak into the elements 12.

0 With the inflation member shown in FIG. 1, the casing may not be applied.

During operation, prior to placement of the pumped mold and the reinforcing material impregnated with resin into the pipeline

5 or an individual pipe, said tension cable or cables are loosened, allowing the individual links of said tubular elements to move relative to each other, thereby making both of the aforementioned coaxial passage and the aforementioned flexible pumping mold flexible. When placed pumped form and reinforcing material in the named pipe or a separate pipe, called a tension cable

Claims (7)

5 is tensioned, doing the so-called coaxial channel and the so-called inflated shape are rigid, as indicated above. SUMMARY OF THE INVENTION 1. Device for installing a repair 0 material in the repair zone of the inner wall of the pipeline being repaired, to be repaired, including a rod element, a radially elongating device mounted externally on 5 of the core element and elongated axially along at least a portion of the core element and around at least a portion of this core element, repair material installed so that it can be inserted using the specified device in the pipeline to be repaired, with the possibility of its placement in the place of repair so that the radially extensible device, expanding, presses the repair material to the repaired place, characterized in that the outer surface of the part of the extractive device is connected to the rod element by only one the axial end of the outer surface of the part that surrounds the axially rod element in the first axial direction from the axial end, and when removing the device from the pipeline in the first in the axial direction, the external surface is separated from the repair material without disturbing the position of the repair material in the repair zone. 2. The device according to claim 1, with the exception of so that the core element has an axially inner passageway allowing fluid to flow between opposite axial ends of the device. 3. The device according to claim 1, with the proviso that the radially elongating device includes an inflated element defining an annular or partial annular enclosed space located axially along the rod element. 4. The device according to claim 3, with the proviso that the pumped element is provided with internal and external flexible sheets connected to the core element in adjacent axial positions to form an annular or partially annular enclosed space between the inner and outer flexible sheets. 5. The device according to claim 4, with the proviso that the pumped-up element is provided with a dividing wall connected to the rod element between adjacent axial positions, and the dividing wall divides the enclosed space into internal and external axially spaced passages, wherein means for supplying fluid to a confined space are placed between adjacent axial positions on each side of the partition wall. 6. The device according to claim 3 or 4, further that the outer surface of the ejector device is made in the form of a flexible sleeve placed on top and outside of the pumped element. 7. The device according to claim 2, with the proviso that the rod element consists of a plurality of annular sections, each of the annular sections having end formations intended to engage with the end formations of the adjacent section at axially pressing them together to maintain a rigid annular shape of the rod element, and means for selectively securing the end formations with engagement or disengagement of the end formations from engagement, W l eleven